TRN DC-DC DS500SDC-3 Release 1.3 (2019-12-24) · 2019-12-26 · 2 07%) 7hofrugld 65 dw ghj& qrplqdo...
Transcript of TRN DC-DC DS500SDC-3 Release 1.3 (2019-12-24) · 2019-12-26 · 2 07%) 7hofrugld 65 dw ghj& qrplqdo...
Rev.12.24.19_#1.3DS500SDC-3 Series
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Technical Reference Note
DS500SDC-3
500 Watts
Distributed Power System
Total Power: 500 WattsInput Voltage: -36 to -72 Vdc# of Outputs: Main and Standby
Special Features• 500 W output power • High-power and short form factor• 1U power supply• High-density design: 12 W/in3
• Inrush current control• N+1 or N+N Redundant• Active current sharing
(10 - 100% load)• Full digital control• PMBus compliant• Compatible with Artesyn’s
Universal PMBus GUI• Two year warranty• Reverse airflow available
SafetyUL/cULDemko+ CB ReportEN60950CE MarkChina CCC
Product DescriptionsThe DS500SDC-3 power supply features a very wide -36 to -72 Vdc input voltage range, which is ideal for telecom and central office applications operating from -48V battery plants. The power supply also features active inrush current control, to automatically limit inrush current at turn-on to 55A maximum.
The DS500SDC-3 can deliver up to 41.6 A from its main +12 Vdc output, and up to 3 A from its +12 Vdc auxiliary output. The form factor is 1U and may be used in single or in redundant configurations.
DS500SDC-3 has a ultra-high efficiency which will be 90% at nominal DC line with 50 percent full load.
DS500SDC-3 is equipped with an I2C interface available with industry-standard PMBus™ communications protocol. It also contains a memory device that is preprogrammed with data about the unit – including its type, serial number and date of manufacture – to facilitate replacement in the field.
Product DescriptionsThe DS500SDC-3 power supply features a very wide -36 to -72 Vdc input voltage range, which is ideal for telecom and central office applications operating from -48V battery plants. The power supply also features active inrush current control, to automatically limit inrush current at turn-on to 55A maximum.
The DS500SDC-3 can deliver up to 41.6 A from its main +12 Vdc output, and up to 3 A from its +12 Vdc auxiliary output. The form factor is 1U and may be used in single or in redundant configurations.
DS500SDC-3 has a ultra-high efficiency which will be 90% at nominal DC line with 50 percent full load.
DS500SDC-3 is equipped with an I2C interface available with industry-standard PMBus™ communications protocol. It also contains a memory device that is preprogrammed with data about the unit – including its type, serial number and date of manufacture – to facilitate replacement in the field.
Technical Reference Note
Rev.12.24.19_#1.3DS500SDC-3 Series
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Technical Reference Note
Model Numbers
Options
None
ModelNumber
OutputVoltage
MinimumLoad
Maximum Load
StandbySupply
Air Flow Direction
DS500SDC-3 12.0Vdc 0A 41.6A 12Vdc@3AForward
(DC Connector to Red Handle)
DS500SDC-3-001
12.0Vdc 0A 41.6A 12Vdc@3AReverse
(Blue Handle to DC Connector)
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Rev.12.24.19_#1.3DS500SDC-3 Series
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Technical Reference Note
Table 1. Absolute Maximum Ratings:
Parameter Model Symbol Min Typ Max Unit
Input VoltageDC continuous operation All models VIN,DC -36 -54 -72 Vdc
Maximum Output Power All models PO,max - - 500 W
Ambient Operating TemperatureDS500SDC-3
DS500SDC-3-001TA 0
0--
+651
+55
OC
Isolation VoltageInput to outputs
Input to safety groundAll modelsAll models
--
--
32323232
VdcVdc
Storage Temperature All models TSTG -40 - +70 OC
Humidity (non-condensing)Operating
Non-operatingAll modelsAll models
2010
--
8095
%%
AltitudeOperating
Non-operatingAll modelsAll models
--
--
10,0002
50,000feetfeet
Note 1 - DS500SDC-3: 500W from 0 to 50OC, withstand operation up to 65OC at 250W output power without damage.
DS500SDC-3-001: 500W from 0 to 40OC, withstand operation up to 55OC at 250W output power without damage.
Note 2 - Operating altitude up to 10,000 feet, derated after 10,000 feet, detail see page 23.
Electrical Specifications
Absolute Maximum Ratings
Stress in excess of those listed in the “Absolute Maximum Ratings” may cause permanent damage to the power supply. These are stress ratings only and functional operation of the unit is not implied at these or any other conditions above those given in the operational sections of this TRN. Exposure to any absolute maximum rated condition for extended periods may adversely affect the power supply’s reliability.
Technical Reference Note
Rev.12.24.19_#1.3DS500SDC-3 Series
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Technical Reference Note
Input Specifications
Table 2. Input Specifications:
Parameter Conditions Symbol Min Typ Max Unit
Operating Input Voltage, DC All VIN,DC -36 -54 -72 Vdc
Turn-on Voltage All -34 - -36 Vdc
Turn-off Voltage All -33 - -35 Vdc
Hysteresis between turn-on/turn-off All 1 - - Vdc
Maximum Input Current VIN,DC = -36Vdc - - 17.5 A
Startup Surge Current (Inrush)@ 25OC
All IIN,surge - - 55 Apk
Input FuseQuick Acting 30A,
170V- - 30 A
Operating Efficiency1 VIN,DC = -48VdcIO = 50% IO,max
90 - - %
Standby Input Current(VO = 0V, ISB = 0A)
All IIN,standby - - 250 mA
Standby Input Power(VO = 0V, ISB = 0A)
All PIN,standby - - 15 W
No Load Input Current(VO = On, IO = 0A, ISB = 0A)
All IIN,no-load - - 350 mA
System StabilityPhase Margin
Gain MarginAll 45
---
--10
ØdB
Note 1 - Efficiency measurements done as per Generalized Test Protocol for Calculating Energy Efficiency of Internal AC-DC andDC-DC Power Supplies.
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Table 3. Output Specifications:
Parameter Conditions Symbol Min Typ Max Unit
Factory Set Voltage All%VO -0.2 - +0.2
%%VSB -1 - +1
Output Regulation
Inclusive of set-point, temperature change,
warm-up drift and dynamic load
VO 11.4 12.0 12.6Vdc
VSB 11.4 12.0 12.6
Output Ripple, pk-pk
Measure with a 0.1uFceramic capacitor inparallel with a 10uF
tantalum capacitor, 0to 20MHz bandwidth.
A resistor load is recommended. An additional 2,000uF
capacitor is needed on +12V for ripple/noise
measurement
VO - - 120
mVPK-PK
VSB - - 120
Output Current AllIO 21 - 41.6
AISB 0.1 - 3
VO Current Share Accuracy50% load to 100%
load- - 6.8 %IO,max
Minimum Load for Current Sharing 10 - - %IO,max
Number of Parallel UnitsMain Output “ISHARE”
connected- - 4 Units
Load Capacitance Start upVO 2000 - 40000 uF
VSB 0 - 680 uF
Note 1 - Minimum current for transient load response testing only. Unit is designed to operate and be within output regulation range at zero load.
Output Specifications
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Technical Reference Note
Table 3. Output Specifications:
Parameter Conditions Symbol Min Typ Max Unit
VO Dynamic Response Peak Deviation1
50% load change, slew rate = 1A/uS
Minimum allowable output capacitance of 500uF during this test
%VO -5 - 5 %
VO Long Term StabilityMax change over 24 hours
After thermal equilibrium (30 mins)
%VO -0.2 - 0.2 %
MTBFTelcordia SR232 at 40degC, nominal input, full load
200 - - KHour
Note 1 - Minimum current for transient load response testing only. Unit is designed to operate and be within output regulation range atzero load.
Output Specifications
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Technical Reference Note
System Timing Specifications
Table 4. System Timing Specifications:
Label Parameter Min Max Unit
T1Delay from DC being applied to standby output being within regulation
20 1700 ms
T2 Delay from standby output to INPUT_OK assertionSee note
below20 ms
T3Delay from standby output to main output voltage being within regulation
- 300 ms
T4Delay from DC being applied to main output being within regulation
- 2200 ms
T5Delay from output voltages within regulation limits to Pwr_Good asserted
100 1000 ms
T6 Delay from loss of DC to deassertion of INPUT_OK - 6 ms
T7 Delay from loss of DC to deassertion of Pwr_Good 0.1 - ms
T8 Delay from loss of DC to main output falling out of regulation 1 - ms
T9 Delay from loss of DC to standby output falling out of regulation 150 - ms
T10Delay from deassertion of Pwr_Good to output falling out of regulation
1 - ms
T11 Delay from PS_ON assertion to output being within regulation - 350 ms
Note 1 - Tsb Hold-up is measured with standby output loaded at 1A.Note 2 - Tsb_INPUT_OK : INPUT_OK can assert earlier than the standby output
Technical Reference Note
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Technical Reference Note
System Timing Specifications
Technical Reference Note
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Technical Reference Note
DS500SDC-3 Performance Curves
Figure 1: DS500SDC-3 Turn-on delay via DC mains – Vin = -36VdcFull Load: IO = 41.6A, ISB = 3A
Ch 1: DC Mains Ch 2: Vo Ch 3: VSB Ch 4: Pwr_Good
Figure 5: DS500SDC-3 Output Voltage Startup – Vin = -36VdcFull Load: IO = 41.6A, ISB = 3A
Ch 2: VO Ch 4: Pwr_Good
Figure 2: DS500SDC-3 Turn-on delay via PS_ON – Vin = -36VdcFull Load: IO = 41.6A, ISB = 3A
Ch 1: DC Mains Ch 2: VO Ch 3: PS_ON Ch 4: Pwr_Good
Figure 4: DS500SDC-3 Hold-up Time – Vin = -72VdcFull Load: IO = 41.6A, ISB = 3A
Ch 1: DC Mains Ch 2: VO Ch 3: VSB Ch 4: Pwr_Good
Figure 6: DS500SDC-3 Ripple and Noise Measurement – Vin = -54Vdc Full Load: IO = 41.6A, ISB = 3A
Ch 1: VO
Figure 3: DS500SDC-3 Hold-up Time – Vin = -36VdcFull Load: IO = 41.6A, ISB = 3A
Ch 1: DC Mains Ch 2: VO Ch 3: VSB Ch 4: Pwr_Good
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Technical Reference Note
DS500SDC-3 Performance Curves
Figure 7: DS500SDC-3 Turn Off Characteristic via PS_ON Full Load: IO = 41.6A, ISB = 3A
Ch 2: VO Ch 3: PS_ON_L Ch 4: Pwr_Good
Figure 8: DS500SDC-3 Turn Off Characteristic via PS_KILLFull Load: IO = 41.6A, ISB = 3A
Ch 2: VO Ch 3: PS_KILL Ch 4: Pwr_Good
Figure 10: DS500SDC-3 Transient Response – Vo Deviation (high to low)100% to 50% load change, 1A/uS slew rate, VIN = -54Vdc
Ch 1: Vo Ch 2: IO Output capacitance=1000uF
Figure 9: DS500SDC-3 Transient Response – Vo Deviation (low to high)50% to 100% load change, 1A/uS slew rate, VIN = -54Vdc
Ch 1: VO Ch 2: IO Output capacitance=1000uF
Figure 11: DS500SDC-3 Efficiency Curves @ 25 degC, -36 Vdc -48 Vdc -54 Vdc -72 Vdc
Loading: IO = 5% increment to 41.6A, ISB = 3A
Eff
icie
ncy
(%
)
x
Technical Reference Note
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Technical Reference Note
Protection Function Specification
Input Fusing
DS500SDC-3 series are equipped with an internal non-user serviceable 30A Fast Acting 170Vac fuse for fault protection in input.
Over Voltage / Under Voltage Protection (OVP / UVP)
The power supply provides latch mode over and under voltage protection as defined by the output under voltage and output over voltage parameters for each output. A fault on the main output will not cause the Standby Output to shutdown.
OVP
UVP
Over Current Protection (OCP)
DS500SDC-3 series include internal current limit circuitry to prevent damage in the event of overload or short circuit. Recovery must be automatic when the overload is removed, if the overload lasts for 500ms or less, and if it is less than or equal to 120% of rated load. If the overload is > 125% of rated load, the power supply will latch off immediately within 10ms. The latched state will require DC power / PS_ON recycling to restart the power supply. A fault in the main output will not cause the standby output to shut down. No damage will result to the supply as the result of either short term or long term overloads of the outputs.
The standby output will have an OCP limit from 120%-150% and will auto-recover when the overload is removed. A fault in the standby output will shutdown other outputs and will auto-recover as well when the overload on the standby is removed.
Parameter Min Nom Max Unit
VO Output Undervoltage 10.5 / 11.0 V
VSB Output Undervoltage 10.0 / 11.0 V
Parameter Min Nom Max Unit
VO Output Overvoltage 13.5 / 15.0 V
VSB Output Overvoltage 13.5 / 15.0 V
Parameter Min Nom Max Unit
VO Output Overcurrent 120 / 150 %IO,max
VSB Output Overcurrent 120 / 150 %ISB,max
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Technical Reference Note
Short Circuit Protection (SCP)
The DS500SDC-3 power supply will withstand a continuous short circuit with no permanent damage, applied to its main output during start-up or while running. A short circuit is defined as an impedance on Vo of 0.1 ohm or less.
When the Stand-by output is shorted, the output may try to auto recover. When the Stand-By output attempts to restart, the maximum peak current from the output must be less than 20A.
Over Temperature Protection (OTP)
The power supply will be internally protected against over temperature conditions. There will be three over-temperature protection sensing – on the main output, the PFC circuit, and on the standby output. When one of the sensing circuits has reached the OTP limit, all outputs, except standby, will shut-down and will remain off until the over-temperature condition no longer exists. The standby output will shut down due to OTP only when the ambient temperature has gone above 80degC. A suitable hysteresis point between the OTP threshold and the recovery point will be set to ensure there is no frequent on-off cycling of the outputs. The temperature recovery point will be set well-within the operating temperature range. Upon reaching the temperature recovery point, all outputs will auto-recover.
Any OTP fault will be reported in the PMBus status flag, without discriminating on which OTP sensing circuit was triggered.
Technical Reference Note
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Technical Reference Note
Mechanical Specifications
Mechanical Outlines Units: mm
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Technical Reference Note
Connector Definitions
DC Input Connector
Pin 1 – Vin+
Pin 2 – Vin-
Output Connector – Power Blades
P1-P8 – + Main Output (VO)
P9-P18 – Return
P19-P20 – + Standby Output (VSB)
P21-P28 – Return
P29-P36 – + Main Output (VO)
Output Connector – Control Signals
S1 – PS_PRESENT
S2 – Reserved
S3 – Reserved
S4 – Pwr_Good
S5 – Input_OK (DC Input Present)
S6 – RETURN
S7 – ISHARE
S8 – Reserved
S9 – PS_INTERRUPT_L
S10 – RETURN
S11 – Reserved
S12 – Reserved
S13 – PS_ON
S14 – PS_KILL
S15 – Reserved
S16 – RETURN
S17 – SDA
S18 – RETURN
S19 – SCL
S20 – RETURN
S21 – REMOTE SENSE-
S22 – RETURN
S23 – REMOTE SENSE+
S24 – Reserved
Power Supply Output Card Edge (Bottom Side)
Power Supply Output Card Edge (Top Side)
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Technical Reference Note
Power / Signal Mating Connectors and Pin Types
Table 5. Mating Connectors for DS500SDC-3 series
Reference On Power SupplyMating Connectoror Equivalent
DC Input Connector Molex 394210002 Molex 394250002
Output Connector Card-edge FCI 10107844-002LF or equivalent
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Technical Reference Note
LED indicator Definition
One bi-color (green/amber) LED at the power supply front provides status signal. The status LED conditions is shown on the below table.
Condition LED Status
No DC input to PSU Off
DC present, Standby output ON, Main output ON SOLID GREEN
Standby mode and Power supply failure BLINKING AMBER
Status LED
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Technical Reference Note
Weight
The DS500SDC-3 series weight is 2.24lbs / 1014g maximum.
Technical Reference Note
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Environmental Specifications
EMC Immunity
DS500SDC-3 series power supply is designed to meet the following EMC immunity specifications:
Table 6. Environmental Specifications:
Document Description
FCC Part 15 Subpart J Class A,CISPR 22/ EN55022
Conducted and Radiated EMI Limits
IEC/EN 61000-4-2 Electromagnetic Compatibility (EMC) - Testing and measurement techniques – Electrostatic discharge immunity test. 8KV air, 4KV contact discharge, performance Criteria A
IEC/EN 61000-4-4 Electromagnetic Compatibility (EMC) - Testing and measurement techniques, Electrical Fast Transient/BurstImmunity Test. 1KV for AC power port Criteria B, 0.5KV for DC ports, I/O and signal ports performance Criteria A.
IEC/EN 61000-4-5 Electromagnetic Compatibility (EMC) - Testing and measurement techniques – 1KV common mode and 0.5KV differential mode for DC ports performance criteria B.
EN55022 Information Technology Equipment-Immunity Characteristics, Limits and Method of Measurements
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Technical Reference Note
Safety Certifications
The DS500SDC-3 power supply is intended for inclusion in other equipment and the installer must ensure that it is in compliance with all the requirements of the end application. This product is only for inclusion by professional installers within other equipment and must not be operated as a stand alone product.
Table 7. Safety Certifications for DS500SDC-3 series power supply system .
Document File # Description
UL/cUL 60950 E186249-A269-UL-X6 US and Canada Requirements
D+ CB Cert DK-38993-A2-UL (All CENELEC Countries)
CHINA CCC 2014010907716519 China Requirements
CE Mark 14756
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Technical Reference Note
EMI Emissions
The DS500SDC-3 series have been designed to comply with the Class A limits of EMI requirements of EN55022 (FCC Part 15) and CISPR 22 (EN55022) for emissions and relevant sections of EN61000 (IEC 61000) for immunity. The unit is enclosed inside a metal box, tested at 500W using resistive load with cooling fan.
Conducted Emissions
The applicable standard for conducted emissions is EN55022 (FCC Part 15). Conducted noise can appear as both differential mode and common mode noise currents. Differential mode noise is measured between the two input lines, with the major components occurring at the supply fundamental switching frequency and its harmonics. Common mode noise, a contributor to both radiated emissions and input conducted emissions, is measured between the input lines and system ground and can be broadband in nature.
The DS500SDC-3 power supplies have internal EMI filters to ensure the convertors’ conducted EMI levels comply with EN55022 (FCC Part 15) Class A and EN55022 (CISPR 22) Class A limits. The EMI measurements are performed with resistive loads at maximum rated loading.
Sample of EN55022 Conducted EMI Measurement at 48Vdc input
Note - Red Line refers to Artesyn Quasi Peak margin, which is 6dB below the CISPR international limit.Green Line refers to the Artesyn Average margin, which is 6dB below the CISPR international limit.
Conducted Emissions
Table 8. Conducted EMI emission specifications of the DS500SDC-3 series
Parameter Model Symbol Min Typ Max Unit
FCC Part 15, class A All Margin - - 6 dB
CISPR 22 (EN55022) class A All Margin - - 6 dB
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Technical Reference Note
Radiated Emissions
Unlike conducted EMI, radiated EMI performance in a system environment may differ drastically from that in a stand-alone power supply. It is thus recommended that radiated EMI be evaluated in a system environment. The applicable standard is EN55022 Class A (FCC Part 15). Testing the convertors as a stand-alone component to the exact requirements of EN55022 can be difficult, because the standard calls for 1m leads to be attached to the input and outputs and aligned such as to maximize the disturbance. In such a set-up, it is possible to form a perfect dipole antenna that very few convertors could pass. However, the standard also states that ‘an attempt should be made to maximize the disturbance consistent with the typical application by varying the configuration of the test sample.
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Technical Reference Note
Operating Temperature
The DS500SDC-3 series power supplies will start and operate within stated specifications at an ambient temperature from 0OC to 50OC under all load conditions with internal fan.
Forced Air Cooling
The DS500SDC-3 series power supplies include internal cooling fans as part of the power supply assembly to provide forced air-cooling to maintain and control temperature of devices and ambient temperature in the power supply to appropriate levels.
The minimum airflow provided by the power supply is 11CFM. The PSU must meet thermal requirements at this airflow at worst operating conditions, with a backpressure of 0.4 inches of water.
The forward airflow direction will be from the DC connector end to the DC end of the power supply. The power supply is able to run continuously without overheating at 50% load and nominal line/temperature conditions at XX fan speed.
Additionally, the Fan PWM Duty cycle will be set to 100% once ambient temperature reaches 50 degrees C regardless of the output load.
Standby mode operation will not require airflow to cool the power supply at worst case conditions. However, if used in redundant mode operation and when the 12V main is present, fans are allowed to run regardless if any unit is in standby mode or have no DC input.
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Technical Reference Note
Storage and Shipping Temperature / Humidity
The DS500SDC-3 series power supplies can be stored or shipped at temperatures between -40OC to +70OC and relative humidity from 10% to 95% non-condensing.
Altitude
The DS500SDC-3 series will operate within specifications at altitudes up to 10,000 feet above sea level. The power supply will not be damaged when stored at altitudes of up to 50,000 feet above sea level.
Humidity
Operating: Power supply can be operate with no degradation of performance while operating in range of 20% RH to 80%RH non-condensing.
Non-Operating: Power supply will be designed to operate with no degradation of performance while operating in range of 10%RH-95%RH non-condensing.
Vibration
The DS500SDC-3 series power supply will pass the following vibration specifications:
Notes Min Max AltitudeSystem Back
Pressure
DS500SDC-3
500W load 0ºC 50OC 6,000 ft 0.4” H20
500W load 0ºC 40OC 10,000 ft 0.5” H20
375W load 0ºC 55OC 10,000 ft 0.5” H20
250W load 0ºC 65OC 10,000 ft 0.5” H20
DS500SDC-3-001
500W load 0ºC 40OC 6,000 ft 0.4” H20
500W load 0ºC 30OC 10,000 ft 0.4” H20
375W load 0ºC 45 OC 10,000 ft 0.5” H20
250W load 0ºC 55OC 10,000 ft 0.5” H20
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Non-Operating Random Vibration
Shock
The DS500SDC-3 power supply will pass the following vibration specifications:
Non-Operating Half-Sine Shock
Operating Half-Sine Shock
Acceleration 2.21 gRMS
Frequency Range 5-500 Hz
Duration 90 mins
Direction Rotating each axis on vertical vibration
PSD Profile
SLOPE PSDFREQ dB/oct g2/Hz
5Hz 0.001 g2/Hz20Hz 0.010 g2/Hz500Hz 0.010 g2/Hz
Acceleration 30 G
Duration 18 msec
Pulse Half-Sine
No. of Shock 3 shock on each of 6 faces
Acceleration 3.12 gRMS
Frequency Range 5-500 Hz
Duration 90 mins
Direction Rotating each axis on vertical vibration
PSD Profile
SLOPE PSDFREQ dB/oct g2/Hz
5Hz 0.002 g2/Hz20Hz 0.020 g2/Hz500Hz 0.020 g2/Hz
Acceleration 15 G
Duration 11 msec
Pulse Half-Sine
No. of Shock 3 shock on each of 6 faces
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Power and Control Signal Descriptions
Input Connector
This connector supplies the DC Mains to the DS500SDC-3 power supply.
Pin 1 - Vin+Pin 2 - Vin-
Output Connector – Power Blades
These pins provide the main output for the DS500SDC-3. The + Main Output (VO) and the Main Output Return pins are the positive and negative rails, respectively, of the VO main output of the DS500SDC-3 power supply. The Main Output (VO) is electrically isolated from the power supply chassis.
P1-P8 - + Main Output (VO)P9-P18 - Main Output ReturnP19-P20 - Standby Output (VSB)P21-P28 - Main Output / Standby Output ReturnP29-P36 - + Main Output (VO)
Output Connector - Control Signals
The DS500SDC-3 series contain a 24 pins control signal header providing an analogue control interface and I2C interface signal connections.
PS_PRESENT – (pin S1)
This signal pin is grounded inside the power supply. It can be used to sense PSU seated by using a suitable pull-up to standby bus with a noise filter capacitor connected to SB return.
Pwr_Good / PWOK – (pin S4)
A power good signal will be asserted, driven HIGH (>2,0V), by the power supply to indicate that all outputs are valid. If anyof the outputs falls below the UVP threshold, then this output will be driven LOW (<0.4V). This signal has 1K pull-up resistor connected to standby bus before oring device inside PSU. Timing requirements for this signal is given in Table 4.
Note: For proper Power supply operation, it is recommended to provide separate PSON signal to each unit using suitable circuit capable to sink 6mA max current when connected in parallel configuration. Also note that PSU has 1K internal pull-up, hence no additional pull-up required by system.
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Power and Control Signal Descriptions
INPUT_OK (DC Input Present) – (pin S5)
The INPUT_OK is an open collector signal which is normally HIGH (>2.0V) whenever input DC voltage is within allowable limits. This signal will go LOW (<0.4V) within 0.1ms from loss of DC. Power supply has internal 1Kohm /pull-up resistor to internal 3.3V bias. Additional pull-up on system side may be added but current-limited to 0.7mA. Suitable noise filter capacitor connected to standby return line is recommended on system side.
ISHARE (Current Share Bus) – (pin S7)
This signal is a bus which will allow two or more power supplies to share the system load current.
This signal will have a voltage which is directly proportional to supplied current. A linear slope from minimum load to full load is expected.
Power supply side Customer system side
Indicate that main output voltage is within regulation range at system side
Power supply side Customer system side
Rsys
100K
100pF
C
DCOK
Indicate the presence of DC input to the power supply at system side
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Technical Reference Note
PS_ON (REMOTE ON/OFF) – (pin S13)This signal enables or disables the 12V main output of the power supply. When this signal is pulled to <0.8V by the system, the 12V main output will be enabled. The signal can source a maximum of 1mA in this state. Pulling this signal to >2.0V will shutdown the main output. This signal can be pulled high to 3.3V maximum.
The standby output is not affected by this signal.
This function is supported through PMbus, please refer to Pmbus command for more details.
PS_KILL – (pin S14)
This signal has the shortest pin in the output connector. It functions as the first break/ last mate pin, thus, supports how-swap capability. This enables or disables the 12V main output of the power supply. When this signal is shorted to ground by the system, the 12V main output will be enabled. The signal can source a maximum of 1.2mA in this state. When this signal is opened by the power supply removal from the system, the main output will shut down within 100us.
Enables/disables the main output at system side
Rsys3.0K
Power supply side Customer system side
100pFC
PS_ON
Enables/disables the main output at system side
Customer system side
0.22KRsys
Power supply side
100pF
C
PS_KILL
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Technical Reference Note
REMOTE SENSE + and REMOTE SENSE-– (pins S21, S23)
The main output of the DS500SDC-3 is equipped with a Remote Sensing capability that will compensate for a power path drop around the entire loop of 100 millivolt. This feature is implemented by connecting the Main Output Remote Sense (pin S23) and the Main Output Remote Sense Return (pin S21) to the positive and negative rails of the main output, respectively, at a location that is near to the load. Care should be taken in the routing of the sense lines as any noise sources or additional filtering components introduced into the voltage rail may affect the stability of the power supply. TheDS500SDC-3 will operate appropriately without the sense lines connected; however it is recommended that the sense lines be connected directly to the main output terminals if remote sensing is not required. This remote sense circuit will not raise the power supply’s output voltage to the OVP trip level. Main Output Remote Sense has no effect on the Standby Output (VSB).
In the event of a failure of the remote sense lines, the output voltage should revert to the internal sense so as to limit the output voltage to less than 105% of the nominal.
Technical Reference Note
Rev.12.24.19_#1.3DS500SDC-3 Series
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Technical Reference Note
Communication Bus DescriptionsI2C Bus Signals
The DS500SDC-3 power supply contains enhanced monitor and control functions implemented via the I2C bus. The DS500SDC-3 I2C functionality (PMBusTM and FRU data) can be accessed via the output connector control signals. The communication bus is powered either by the internal 3.3V supply or from an external power source connected to the Standby Output (i.e. accessing an unpowered power supply as long as the Standby Output of another power supply connected in parallel is on).
If units are connected in parallel or in redundant mode, the Standby Outputs must be connected together in the system. Otherwise, the I2C bus will not work properly when a unit is inserted into the system without the DC source connected.
Note: PMBusTM functionality can be accessed only when the PSU is powered-up.Guaranteed communication I2C speed is 100K Hz.
SDA, SCL and PS INTERRUPT (Alert#)
Pins for I2C communication is pulled-up in the system by 1K ohm resistor to a 3V3 supply.If units are connected in parallel or redundant mode, the stand-by output must be capable of maintaining supply to the power supply controller such that I2C communication is not lost even without an DC supply in one power supply.
If these pins are pulled up to the Stand-by output created from the Main output using a step-down, non-isolated DC/DC provided within the end system, the ground of the Stand-by output and Main output are connected together.
PS INTERRUPT is used to send a signal to the system that a fault in the PSU occurred. The pin is normally high; it is asserted (goes low) when a fault occurs. The conditions wherein the signal is de-asserted (goes back to high) are: (1) DC recycle, (2) PSON recycle and (3) issuance of a CLEAR_FAULTS PMBus command.
I2C Bus Communication Interval
The interval between two consecutive I2C Communications to the power supply will be at least 15ms to ensure proper monitoring functionality or after the PS INTERRUPT signal is sent to the system. PS INTERRUPT signal is an optional feature and is allowed to float if this pin function is not used.
I2C Bus Signal Integrity
The noise on the I2C bus (SCL/SDA) as well as the address lines due to the power supply is less than 300mv peak to peak across all operating conditions. This noise measurement is made with an Oscilloscope bandwidth limited to 100MHZ. Measurements is made at the power supply output connector using up to 47pf ceramic capacitor to power supply standby return.
Packet Error Checking
Packet Error Checking must support a CRC-8 error checking byte calculated on all the message bytes (including addresses and read/write bits). The PSU must be prepared to accept the slave transfer with or without PEC. A “Packet Error Check Failed” on bit XX of the STATUS_CML register will be set if a PEC byte is not correct.
The PEC must be supported according to SMBUS specifications.
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Technical Reference Note
I2C Bus Internal Implementation, Pull-ups and Bus Capacitances
I2C Bus - Recommended external pull-ups:
SystemBackplaneProcessor
SYSTEMBACKPLANE
POWER SUPPLY SIDESystem 3.3V (Internal Secondary Logic Supply)
100
K
100
K
PSU MonitorFunction
PSU MicroController
SDA SDA
SCL SCL
FRUDATA
EEPROM
GND
Interconnect
1K 1K
PS_INTERRUPT_L
Electrical and Interface specifications of I2C signals (referenced to Standby Output Return pin, unless otherwise indicated):
Parameter Condition Symbol Min Typ Max Unit
SDA, SCL internal pull-up resistor Rint - 100 - Kohm
SDA, SCL internal bus capacitance Cint - 100 - pF
Recommended external pull-up resistor
1 to 4PSU Rext - 2.2 - Kohm
100
100
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Rev.12.24.19_#1.3DS500SDC-3 Series
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Technical Reference Note
Logic Levels
DS500SDC-3 series power supply I2C Communication Bus will respond to logic levels as per below:
Logic High: 3.3V Nominal (Specs is 2.1V to 5.5V)**Logic Low: 500mV nominal (Specs is 800mV max)**
Timings
Parameter SymbolStandard-Mode Specs
Actual UnitMin Max
SCL Clock Frequency fSCL 0 100 99.8 KHz
Hold time (repeated) START condition
tHD;STA 4.0 - 4.46 us
LOW period of SCL clock tLOW 4.7 - 14.3 us
HIGH period of SCL clock tHIGH 4.0 - 4.15 us
Setup time for repeated START condition
tSU;STA 4.7 - 5 us
Data hold time tHD;DAT 0 3.45 0.26 us
Data setup time tSU;DAT 250 - 4356 ns
Rise time tr - 1000 SCL = 1238 SDA = 1211 ns
Fall time tf - 300 SCL = 125 SDA = 148 ns
Setup time for STOP condition tSU;STO 4.0 - 6.7 us
Bus free time between a STOP and START condition
tBUF 4.7 - 62.1 msec
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Technical Reference Note
Device Addressing
The DS500SDC-3 has a fixed i2C address 0xB0. This address has been set in the power supply side, there is no address bit accessible externally. In order to support multiple addresses, system side should use an i2C switcher or i2C expander. Contact Artesyn for the demo and application note of i2C switcher or i2C expander.
Contact Artesyn for availability of a variant model supporting multiple addresses.
.
.
Technical Reference Note
Rev.12.24.19_#1.3DS500SDC-3 Series
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Technical Reference Note
Reporting Functions
The power supply will have enhanced monitor and control functions implemented via the I2C bus. This will use the SDA and SCL pins. The power supply monitor will operate as an I2C slave device.The accuracy of the report functions will be as follows:
Firmware Reporting And Monitoring
Output loading 5 to 10% 10 to 20% 20 to 40% 40% to 100%
Input voltage ±5%
Input current 0.8 A fixed error +/-0.55A fixed error +/-4%
Input power 2.0W fixed error +/-1.25W at <125W input +/-1.25%
Output voltage ±2%
Output current +/- 10% +/- 7% +/- 5% +/- 2%
Temperature ±5 degC on the operating range
EIN +/-20% +/-15% +/-5%
Fan speed ±250 RPM
PMBus Yes
Remote ON/OFF Yes
Note1 - reporting error will not be more than 1.5A when the load is below 8%
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Rev.12.24.19_#1.3DS500SDC-3 Series
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Technical Reference Note
I2C Clock Synchronization
The DS500SDC-3 power supply applies clock stretching. SMBus specifies a maximum clock low extension (clock stretching) for slave devices. Being a slave device, the product have a timeout mechanism that detects an extended time (longer than the maximum specified by SMBus) that the SDA or SCL is being held low within a PMBus transaction. If this timeout occurs, the slave I2C/SMBus internal state machine must be reset. Usually, this can be done by resetting and reinitializing. Ultimately, the objective is to be able to release the bus (i.e. in high impedance state) if it is the PMBus slave device pulling it low.
The power supply uses clock stretching. Clock stretching will not exceed SMBus maximum clock low timeout of 25msec.
The power supply has a command completion timeout of 100msec. That is, a single transaction (from START to STOP condition) must be finished within 100msec. Otherwise, the PSU will consider that command as an aborted command and restart its internal PMBus state machine to be able to accept a new transaction.
Technical Reference Note
Rev.12.24.19_#1.3DS500SDC-3 Series
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Technical Reference Note
DS500SDC-3 FRU (EEPROM) Data:
OFFSET DEFINITION SPEC VALUE
(DEC) (HEX) (REMARKS) (DEC) (HEX)
COMMON HEADER, 8 BYTES
0 00 Format Version Number (Common Header) 1 01
1 01 Internal Use Area Offset (In multiples of 8 Bytes) 27 1B
2 02 Chassis Info Area Offset (In multiples of 8 Bytes) 1 01
3 03 Board Info Area Offset (Not Used) 0 00
4 04 Product Info Area Offset (In multiples of 8 Bytes) 5 05
5 05 Multi Record Area Offset (In multiples of 8 Bytes) 13 0D
6 06 PAD (reserved – always 00H) 0 00
7 07 Zero Check Sum (256 – (Sum of bytes 000d to 006d)) 209 D1
CHASSIS INFO AREA( 24 BYTES)
8 08 Format Version Number (Default value is 0.) 1 01
9 09 Chassis Info Area Length (Default value is 0.) 4 04
10 0A Chassis Type (Default value is 0.) 0 00
11 0B Chassis Part Number Type/Length 10 byte allocation 202 CA
12131415161718192021
0C0D0E0F101112131415
Chassis Part Number (Default Value is 0.) 0000000000
00000000000000000000
22 16 Chassis Serial Number Type/Length 15 byte allocation 207 CF
23242526272829
1718191A1B1C1D
Chassis Serial Number (Default Value is 0.) 0000000
00000000000000
30 1E 0 0031 1F 0 0032 20 0 0033 21 0 0034 22 0 0035 23 0 0036 24 0 0037 25 0 0038 26 End Tag 193 C139 27 Zero Check Sum (256 – (Sum of bytes 008d to 038d)) 161 A1
FRU (EEPROM) Data
The FRU (Field Replaceable Unit) data format is compliant with the IPMI v1.0 specification.
The DS500SDC-3 uses 1 page of EEPROM for FRU purpose. A page of EEPROM contains up to 256 byte-sized data locations.
Where: OFFSET -The OFFSET denotes the address in decimal format of a particular data byte within DS500SDC-3 EEPROM.
VALUE -The VALUE details data written to a particular memory location of the EEPROM.
DEFINITION -The contents DEFINITION refers to the definition of a particular data byte.
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Technical Reference Note
DS500SDC-3 FRU (EEPROM) Data:
OFFSET DEFINITION SPEC VALUE
(DEC) (HEX) (REMARKS) (DEC) (HEX)
PRODUCT INFORMATION AREA, 72 BYTES
40 28 Format Version Number 1 0141 29 Product Info Area Length (In multiple of 8 bytes) 8 0842 2A Language 25 1943 2B Manufacturer Name Type/Length , 7-Byte Allocation = C7H 199 C7
44454647484950
2C2D2E2F303132
“A” = 41H“R” = 52H“T” = 54H“E” = 45H“S” = 53H“Y” = 59H“N” = 4EH
65828469838978
4152544553594E
51 33 Product Name Type/Length, 15-Byte Allocation = CFH 207 CF
525354555657585960616263646566
3435363738393A3B3C3D3E3F404142
“D” = 44H “S” = 53H“5” = 35H“0” = 30H“0” = 30H“S” = 53H“D” = 44H“C” = 43H “-” = 2DH “3” = 33HSpaceSpaceSpaceSpaceSpace
688353484883686745513232323232
44533530305344432D332020202020
67 43 Product Part/Model Number Type/Length, 15-Byte Allocation = CFH 207 CF
686970717273747576777879808182
4445464748494A4B4C4D4E4F505152
“D” = 44H “S” = 53H“5” = 35H“0” = 30H“0” = 30H“S” = 83H“D” = 44H“C” = 43H “-” = 2DH “3” = 33HSpaceSpaceSpaceSpaceSpace
688353484883686745513232323232
44533530305344432D332020202020
83 53 Product Version Number Type/Length, 2-Byte Allocation = C2H 194 C284 54 “0” = 30H (Refer to iPro for latest revision) 48 3085 55 “0” = 30H (Refer to iPro for latest revision) 48 30
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Technical Reference Note
DS500SDC-3 FRU (EEPROM) Data:
OFFSET DEFINITION SPEC VALUE
(DEC) (HEX) (REMARKS) (DEC) (HEX)
86 56 Product Serial Number Type/Length, 13-Byte Allocation = CDH 205 CD
87888990919293949596979899
100101102103
5758595A5B5C5D5E5F6061626364656667
“L” = 4CH Product Serial Number: MODEL ID“1” = 31H“0” = 30H“1” = 31H“W” MANUFACTURING YEAR AND WEEK CODE“W” MANUFACTURING YEAR AND WEEK CODE“S” UNIQUE SERIAL NUMBER“S” UNIQUE SERIAL NUMBER“S” UNIQUE SERIAL NUMBER“S” UNIQUE SERIAL NUMBER“R” MODEL REVISION (Refer to iPro for latest revision)“R” MODEL REVISION (Refer to iPro for latest revision)“P” = 50H, (For Laguna, Philippines) MANUFACTURING LOCATIONEnd of Fields Marker (0C1H)PAD (reserved – always 00H)Zero Check Sum ( 256- (Sum of bytes 040d to 102d))
76494849878783838383828280
19300
203
4C313031575753535353525250C10000CB
104 68 Power Supply Record Header (72 Bytes)Record Type ID (0x00 = Power Supply Information)
0 00
105 69 3-0: (0010)b, Record Format Version 2 02106 6A Record Length: 24 Bytes 24 18107 6B Record Checksum (Zero Checksum From 109d To 132d ) 80 50108 6C Header Checksum (Zero Checksum From 104d To 107d) 150 96109 6D Overall Capacity of the Power Supply,
15-12: (0000)b, Reserved11-0: (000111110100)b, 500W = 01F4H
244 F4
110 6E 1 01
111 6F Peak VA (Watts)15-12: (0000)b, Reserved11-0: FFFFH if not specified
255 FF
112 70 255 FF
113 71 Inrush Current (Amps)55Amps = 37H
55 37
114 72 Inrush Interval (ms) 10ms = 0AH
10 0A
115 73 Low End Input Voltage Range 136V = 3600 (x10mV) = 0FA0H
16 10116 74 14 0E117 75 High End Input Voltage Range 1
72V = 7200 (x10mV) = 1C20H32 20
118 76 28 1C119 77 Low End Input Voltage Range 2
Stored with LSB first then MSB.0 00
120 78 0 00121 79 High End Input Voltage Range 2
Stored with LSB first then MSB.0 00
122 7A 0 00
123 7B Low End Input Frequency Range00H if DC input
0 00
124 7C High End Input Frequency Range00H if DC input
0 00
125 7D Input Dropout Tolerance in ms, 1ms = 01H 1 01126 7E Binary Flags
7-5: (000)b, Reserved4: (1)b, Tachometer Pulses per Rotation / Predictive Fail Pin Polarity
(2 Pulses Per Rotation = 1; 1 Pulse Per Rotation = 0) OR (Signal Asserted(1) Indicates Failure = 0, Signal Deasserted(0) Indicates Failure = 1)
3: (1)b, Hot Swap / Redundancy Support2: (0)b, AutoSwitch Support1: (1)b, Power Factor Correction Support0: (0)b, Predictive Fail Support
44 2C
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Technical Reference Note
DS500SDC-3 FRU (EEPROM) Data:
OFFSET DEFINITION SPEC VALUE
(DEC) (HEX) (REMARKS) (DEC) (HEX)
127 7F Peak Wattage15-12: (0000)b, Hold Up Time in Seconds = 00H (Not Specified)11-0: (000000000000)b, Peak Capacity in Watts = 00H (Not Specified)
244 F4
128 80 1 01
129 81 Combined WattageByte 1: Bits 7-4: Voltage1 Bits 3-0: Voltage2Byte 2 and Byte 3: Total Combined Wattage
0 00130 82 0 00131 83 0 00132 84 Predictive Fail Tachometer Lower Threshold, Not applicable 0 00133 85 Record Type ID (0x01 = DC Output) 1 01134 86 End Of List/Record Format Version Number 2 02135 87 Record Length: 13 Bytes 13 0D136 88 Record Checksum (Zero Checksum From 138d To 150d ) 20 14137 89 Header Checksum (Zero Checksum From 133d To 136d ) 220 DC138 8A +12V Output Information 1 01139 8B Nominal Voltage 176 B0140 8C 12.00V = 1200 (x10mV) = 04B0H 4 04141 8D Maximum Negative Voltage Deviation 116 74142 8E 11.40V = 1140 (x10mV) = 0474H 4 04143 8F Maximum Positive Voltage Deviation 236 EC144 90 12.60V = 1260 (x10mV) = 04ECH 4 04145 91 Ripple And Noise pk-pk 10Hz To 20MHz (mV) 120 78146 92 120mV = 0078H 0 00147 93 Minimum Current Draw (10mA) 0 00148 94 0000 = 0000H 0 00149 95 Maximum Current Draw (10mA) 71 47150 96 41.67A = 4167 (x10mA) = 1047H 16 10151 97 Record Type ID (0x01 = DC Output) 1 01152 98 End Of List/Record Format Version Number 2 02153 99 Record Length: 13 Bytes 13 0D154 9A Record Checksum (Zero Checksum From 156d To 168d ) 189 BD155 9B Header Checksum (Zero Checksum From 151d To 154d ) 51 33156 9C +12Vsb Output Information 130 82157 9D Nominal Voltage 176 B0158 9E 12.00V = 1200 (x10mV) = 04B0H 4 04159 9F Maximum Negative Voltage Deviation 116 74160 A0 11.40V = 1140 (x10mV) = 0474H 4 04161 A1 Maximum Positive Voltage Deviation 236 EC162 A2 12.60V = 1260 (x10mV) = 04ECH 4 04163 A3 Ripple And Noise pk-pk 10Hz To 20MHz (mV) 120 78164 A4 120mV = 0078DH 0 00165 A5 Minimum Current Draw (10mA) 0 00166 A6 0000 = 0000H 0 00167 A7 Maximum Current Draw (10mA) 44 2C168 A8 3.00A = 0300 (x10mA) = 012CH 1 01169 A9 Record Type ID (C0H = OEM Record) 192 C0170 AA End Of List/Record Format Version Number 130 82171 AB Record Length 42 2A172 AC Record Checksum (Zero Checksum From 174d To 215d ) 256 00173 AD Header Checksum (Zero Checksum From 169d To 172d ) 148 94174175176177178
AEAFB0B1B2
Reserved 00000
0000000000
Technical Reference Note
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Technical Reference Note
DS500SDC-3 FRU (EEPROM) Data:
OFFSET DEFINITION SPEC VALUE
(DEC) (HEX) (REMARKS) (DEC) (HEX)
179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215
B3B4B5B6B7B8B9BABBBCBDBEBFC0C1C2C3C4C5C6C7C8C9CACBCCCDCECFD0D1D2D3D4D5D6D7
Reserved 0000000000000000000000000000000000000
00000000000000000000000000000000000000000000000000000000000000000000000000
216217218219220221222223224225226227228229230231232233234235
D8D9DADBDCDDDEDFE0E1E2E3E4E5E6E7E8E9EAEB
Internal Use Area Reserved
10000000000000000000
0100000000000000000000000000000000000000
Technical Reference Note
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Technical Reference Note
DS500SDC-3 FRU (EEPROM) Data:
OFFSET DEFINITION SPEC VALUE
(DEC) (HEX) (REMARKS) (DEC) (HEX)
236237238239240241242243244245246247248249250251252253254255
ECEDEEEFF0F1F2F3F4F5F6F7F8F9FAFBFCFDFEFF
Internal Use Area Reserved
00000000000000000
0000000000000000000000000000000000
Technical Reference Note
Rev.12.24.19_#1.3DS500SDC-3 Series
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Technical Reference Note
PMBusTM Interface Support
The DS500SDC-3 is compliant with the industry standard PMBusTM protocol for monitoring and control of the power supply via the I2C interface port.
DS500SDC-3 Series PMBusTM General Instructions
Equipment Setup
The following is typical I2C communication setup:
PMBusTM Writing Instructions
When writing to any PMBusTM R/W registers, ALWAYS do the following:
Disable Write Protect (command 10h) by writing any of the following accordingly:
Levels: 00h – Enable writing to all writeable commends
20h – Disables write except 10h, 01h, 02h and 21h commands
40h – Disables write except 10h, 01h, and 00h commands
80h – Disable write except 0x10h
To save changes on the USER PMBusTM Table:
Use send byte command: 15h STORE_USER_ALL
To save changes on the DEFAULT PMBusTM Table:
Use send byte command: 11h STORE_DEFAULT_ALL
Wait for 5 seconds, turn-off the PSU, wait for another 5 seconds before turning it on.
Voltmeter
DS500SDC-3I2C Master I2C Adaptor E-Load
DC Source
Technical Reference Note
Rev.12.24.19_#1.3DS500SDC-3 Series
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Technical Reference Note
DS500SDC-3 Series Support PMBusTM Command List
The DS500SDC-3 is compliant with the industry standard PMBusTM protocol for monitoring and control of the power supply via the i2C interface port.
DS500SDC-3 SerieSupported PMBusTM Command List:
Command Code
Command NameDefault Value
(HEX)Access
TypeData Bytes
Data Format
Description
01h OPERATION 80 R/W 1Used to Turn the unit ON/OFF in conjunction with the input CONTROL pin. It is also used to set output to upper or lower Margin Voltages.
b7:601 – Soft Turn OFF (With Sequencing)10 – PSU ON
b5:4
b3:2
b1:0 Reserved
02h ON_OFF_CONFIG 1C R 1Configures the combination of CONTROL pin and serial communication commands needed to turn the Unit ON/OFF.
b7:5 Reserved
b4 – Enable CONTROL pin and Serial communication control.
1
0 – Unit powers up any time power is present regardless of the state of CONTROL pin.1 – Unit powers up as dictated by CONTROL pin and OPERATION command (b3:0)
b3 – Serial communication Control
1
0 – Unit Ignores ON/OFF portion of the OPERATION command.1 – Enables Serial communication ON/OFF portion of OPERATION command. Requires CONTROL pin to be asserted for the unit to start and energize the output.
b2 – Sets how the unit responds to CONTROL pin
1
0 – Unit ignores CONTROL pin. (ON/OFF controlled by OPERATION command).1 – Unit requires CONTROL pin to be asserted to start the unit.
b1 - CONTROL pin polarity 00 – Active Low (Pull Low to start the unit) 1 – Active high (Pull high to start the unit)
b0 – CONTROL pin Action 00 – Use programmed turn ON/OFF delay1 – Turn OFF the output and stop transferring energy to the output as fast as possible.
03h CLEAR_FAULTS S 0
10h WRITE_PROTECT 80 R/W 1
Used to Control Writing to the PMBus Device80h - Disables write except 10h 40h – Disables write except 10h, 01h,20h – Disables write except 10h,01h,02h and 21h commands00 – Enables write to all writeable commands.
15h STORE_USER_ALL S 0Copies the Operating memory table to the matching USER non-volatile memory.
19h CAPABILITY 90 R 1Provides a way for the hosts system to determine some key capabilities of a PMBus device.
b7 - Packet Error Checking 10 - PEC not supported1 - PEC supported
b6 - Maximum Bus Speed 00 - Maximum supported bus speed, 100KHz1 - Maximum supported bus speed, 400KHz
b5 - SMBALERT# 00 – SMBus Alert Pin not supported
1 – SMBus Alert Pin supported
b4:0 Reserved
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Technical Reference Note
DS500SDC-3 Series Supported PMBusTM Command List:
Command Code
Command NameDefault Value
(HEX)Access
TypeData Bytes
Data Format
Description
1Ah QUERYBR/W1
Process Call
2 Varies
1Bh SMB_ALERT_MASKBR/WProcess Call
2 Varies
20h VOUT_MODE 17 R 1Specifies the mode and parameters of Output Voltage related Data Formats
21h VOUT_COMMAND 18 00 R/W 2 Linear
Sets the Output Voltage ReferenceVout command sends discreet value to change or trim output voltage. The value acts as Digital reference of the Power supply after additional operations are performed (to make the representation compatible. Default: 12.00VMin: 11.4V Max: 12.6V)Affects OVP_WARNING and FAULT LIMIT, as well as POWER_GOOD_ON/OFF level.
24h VOUT_MAX 19 33 R 2 Linear Read Only (12.6V)
30h COEFFICIENTSBR/WProcess Call
6 m = 1, b = 0, R = 0
35h VIN_ON 00 23 R 2 LinearSets the value of input, in volts, at which theunit should start. (35V)
36h VIN_OFF 00 22 R 2 LinearSets the value of input, in volts, at which theunit should stop power conversion. (34V)
3Ah FAN_ CONFIG_1_2 90 R 1 Read Only to reflect settings of Fans
b7 11 – Fan is installed in position 10 – No Fan is installed in position 1
b6 01 – Fan is commanded in RPM0 – Fan is commanded in DC
b5:4 01
00 – 1 pulse per revolution01 – 2 pulses per revolution10 – 3 pulses per revolution11 – 4 pulses per revolution
b3 01 – Fan is installed in position 20 – No Fan is installed in position 2
B2 01 – Fan is commanded in RPM0 – Fan is commanded in DC
b1:0 0
00 – 1 pulse per revolution01 – 2 pulses per revolution10 – 3 pulses per revolution11 – 4 pulses per revolution
3BhFAN_COMMAND_1*(used by both Fan 1 and 2)
00 00 R/W 2 Linear
Adjusts the operation of the Fans. The device may override the command, if it requires higher value, to maintain proper device temperature. RPM Control – Commands Speeds from 0-65535 RPM.Duty cycle Control – Commands Speeds from 0 to 100%
40h VOUT_OV_FAULT_LIMIT 1C 80 R/W 2 LinearSets Output Over voltage threshold. (14.25V)Min: 13.5V Max: 15V
42h VOUT_OV_WARN_LIMIT 1A 00 R/W 2 LinearSets Over-voltage Warning threshold. (13V)Min: 12.6V Max: 13.4V
43h VOUT_UV_WARN_LIMIT 16 66 R/W 2 LinearSets Under-voltage Warning threshold. (11.2V)Min: 11.1V Max: 11.3V
Note 1 – BR-Block Read, BW-Block Write
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Technical Reference Note
DS500SDC-3 Series Supported PMBusTM Command List:
Command Code
Command NameDefault Value
(HEX)Access
TypeData Bytes
Data Format
Description
44h VOUT_UV_FAULT_LIMIT 15 80 R/W 2 LinearSets Under-voltage Fault threshold. (10.75V)Min: 10.5V Max: 11V
45h VOUT_UV_FAULT_RESPONE 80 R 1 Turn PSU OFF.
46h IOUT_OC_FAULT_LIMIT E3 18 R/W 2Sets the Over current threshold in Amps. (49.5A)Min: 10.4A Max: 49.5A
47h IOUT_OC_FAULT_RESPONSE C0 R 1 OCP ride through. If OCP persists.
4Ah IOUT_OC_WARN_LIMIT E2 D6 R/W 2Sets the Over Current Warning threshold in Amps. (45.375A)Min: 10.4A Max: 47.84A
4Fh OT_FAULT_LIMIT EB 70 R/W 2 LinearSecondary ambient temperature Fault threshold, in degree C. (110degC)
50h OT_FAULT_RESPONSE F8 R 1Turn PSU OFF and will retry indefinitely. Support enable/disable of protection and recoverability.
51h OT_WARN_LIMIT EB 48 R/W 2 LinearSecondary ambient temperature warning threshold, in degree C. (105 degC)
55h VIN_OV_FAULT_LIMIT AA00 R 2 Linear Default: 85Vdc
56h VIN_OV_FAULT_RESPONSE C0 R 1
57h VIN_OV_WARN_LIMIT 9600 R 2 Linear Default: 75Vdc
58h VIN_UV_WARN_LIMIT 4600 R 2 Linear Default: 35Vdc
59h VIN_UV_FAULT_LIMIT 3C00 R 2 Linear Default: 30Vdc
5Ah VIN_UV_FAULT_RESPONSE F8 R 1
5Eh POWER_GOOD_ON 16 00 R 2 LinearSets the threshold by which the Power Good signal is asserted. (11V)
5Fh POWER_GOOD_OFF 15 80 R 2 LinearSets the threshold by which the Power Good signal is de-asserted. (10.75V)
60h TON_DELAY EB20 R/W 2 LinearDefault: 100msecMin: 0msec Max: 2200 msec
61h TON_RISE DB C0 R/W 2 LinearSets the time (ms), for the output rises from 0 to regulation. (30ms) Min: 0 Max: 50 msec
62h TON_MAX_FAULT_LIMIT R/W 2 LinearDefault: 2400mSecMin: 2200 Max: 2400 msec
63hTON_MAX_FAULT_RESPONSE
C0 R 1
64h TOFF_DELAY 12 71 R/W 2 Linear
Sets the time (ms), from a stop condition (Power OFF) until the output starts to drop (converter OFF). (Default: 2500 msecMin: 0 Max: 2700 msec)
6Ah POUT_OP_WARN_LIMIT R/W 2 LinearDefault Value: 575Valid Range:Min = 574W; Max = 575W
Technical Reference Note
Rev.12.24.19_#1.3DS500SDC-3 Series
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Technical Reference Note
DS500SDC-3 Series Supported PMBusTM Command List:
Command Code
Command NameDefault Value
(HEX)Access
TypeData Bytes
Data Format
Description
78h STATUS_BYTE R 1 Returns the summary of critical faults
b7 – BUSY Not Supported.
b6 – OFF Unit is OFF
b5 – VOUT_OV Output over-voltage fault has occurred
b4 – IOUT_OC Output over-current fault has occurred
b3 - VIN_UV An input under--voltage fault has occurred
b2 - TEMPERATURE A temperature fault or warning has occurred
b1 – CMLA communication, memory or logic fault has occurred
b0 – NONE OF THE ABOVEA Fault Warning not listed in bits[7:1] has occurred.
79h STATUS_WORD R 2 Summary of units Fault and warning status.
b15 – VOUT An output voltage fault or warning has occurred
b14 – IOUT/POUTAn Output current or power fault or warning has occurred.
b13 – INPUTAn input voltage, current or power fault or warning as occurred.
b12 – MFRA manufacturer specific fault or warning has occurred.
b11 – POWER_GOOD# The POWER_GOOD signal is de-asserted
b10 - FANS A fan or airflow fault or warning has occurred.
b9 – OTHER Not supported.
b8 – UKNOWN Not Supported
b7 – BUSYA fault was declared because the device was busy and unable to respond.
b6 – OFF Unit is OFF
b5 – VOUT_OV Output over-voltage fault has occurred
b4 – IOUT_OC Output over-current fault has occurred
b3 - VIN_UV An input under-voltage fault has occurred
b2 – TEMPERATURE A temperature fault or warning has occurred
b1 – CMLA communication, memory or logic fault has occurred.
b0 – NONE_OF_THE_ABOVEA fault or warning not listed in bits[7:1] of this byte has occurred.
7Ah STATUS_VOUT R 1 Output voltage related faults and warnings
b7 VOUT Over--voltage Fault
b6 VOUT Over-voltage warning
b5 VOUT Under-voltage Warning
b4 VOUT Under-voltage Fault
b3VOUT_MAX WarningNot supported
b2 TON_MAX_FAULT
b1 TOFF_MAX Warning. Not Supported
b0 Not supported.
Technical Reference Note
Rev.12.24.19_#1.3DS500SDC-3 Series
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Technical Reference Note
DS500SDC-3 Series Supported PMBusTM Command List:
Command Code
Command NameDefault Value
(HEX)Access
TypeData Bytes
Data Format
Description
7Bh STATUS_IOUT R 1 Output Current related faults and warnings
b7 IOUT Overcurrent Fault
b6 IOUT Overcurrent And Low Voltage shutdown FaultNot Supported.
b5 IOUT Overcurrent Warning
b4IOUT Undercurrent FaultNot Supported
b3Current Share Fault Not Supported.
b2Power Limiting.Not Supported.
b1POUT Overpower Fault.Not Supported.
b0 POUT Overpower Warning
7Ch STATUS_INPUT R 1 Input related faults and warnings
b7 VIN Overvoltage Fault
b6 VIN Overvoltge WarningNot Supported.
b5 VIN Undervoltage Warning
b4 VIN Undervoltage Fault
b3 Unit is OFF for insufficient Input Voltage
b2 IIN Overcurrent Fault
b1IIN Overcurrent WarningNot Supported.
b0PIN overpower WarningNot Supported.
7Dh STATUS_TEMPERATURE R 1 Temperature related faults and warnings
b7 Overtemperature Fault
b6 Overtemperature Warning
b5Undertemperature WarningNot Supported.
b4Undertemperature FaultNot Supported.
b3:0 reserved
7Eh STATUS_CML R 1 Communications, Logic and Memory
b7 Invalid or unsupported Command Received
b6 Invalid Data
b5 Packet Error Check Failed
b4 Memory Fault Detect, CRC Error
b3 Not Supported.
b2 Not Supported.
b1 Not Supported.
b0 Not Supported.
Technical Reference Note
Rev.12.24.19_#1.3DS500SDC-3 Series
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Technical Reference Note
DS500SDC-3 Series Supported PMBusTM Command List:
Command Code
Command NameDefault Value
(HEX)Access
TypeData Bytes
Data Format
Description
80h STATUS_MFR_SPECIFIC R 1 Manufacturer Status codes
b7 Not Used
b6 Not Used
b5 Not Used
b4 Not Used
b3 Not Used
b2 Not Used
b1 Not Used
b0 MFR SPECIFIC FAULT. For Trouble shooting
81h STATUS_FANS_1_2 R 1
b7 Fan 1 Fault
b6 Fan 2 Fault
b5 Fan 1 Warning
b4 Fan 2 Warning
b3 Fan_1 Speed Overridden
b2 Fan_2 Speed Overridden
b1 Not Used
b0 Not Used
86h READ_EIN R 2 Linear Returns the accumulated input power over time
87h READ_EOUT R 2 LinearReturns the accumulated output power over time
88h READ_VIN R 2 Linear Returns input Voltage in Volts ac.
89h READ_IIN R 2 Linear Returns input Current in Amperes
8Bh READ_VOUT R 2 Linear Returns the actual, measured voltage in Volts.
8Ch READ_IOUT R 2 Linear Returns the output current in amperes.
8Dh READ_TEMPERATURE_1 R 2 LinearPFC HTSK_Temp_1 (Standard air mode uses this sensor for Fan control)
8Eh READ_TEMPERATURE_2 R 2 Linear DCDC HTSK_ Temp_2
8Fh READ_TEMPERATURE_3 R 2 LinearSEC Ambient_Temp_3 (Inside temperature. Reverse air mode uses this sensor for fan control)
90h READ_FAN_SPEED_1 R 2 Linear Speed of Fan 1
96h READ_POUT R 2 Linear Returns the output power, in Watts.
97h READ_PIN R 2 Linear Returns the input power, in Watts.
98h PMBUS_REVISION 22h R 1 Reads the PMBus revision number
99h MFR_ID41,52,54,45,53,
59,4EBR/WASCII
7Abbrev or symbol of manufacturers name. ASCII (ARTESYN)
9Ah MFR_MODEL44,53,35,30,30,53,44,43,2D,33
BR/W ASCII
13Manufacturers Model number, ASCII format(DS500SDC-3)
9Bh MFR_REVISIONBR/WASCII
3 Manufacturers, revision number, ASCII format.
9Ch MFR_LOCATION50,48,49,4C,49,50,50,49,4E,45,
53
BR/WASCII
11Manufacturers facility, ASCII format.(PHILIPPINES)
9Dh MFR_DATE BR/W 8Manufacture Date, ASCII formatStructure
9Eh MFR_SERIAL BR/W 16 Unit serial number, ASCII format.
Technical Reference Note
Rev.12.24.19_#1.3DS500SDC-3 Series
Page 48
Technical Reference Note
DS500SDC-3 Series Supported PMBusTM Command List:
Command Code
Command NameDefault Value
(HEX)Access
TypeData Bytes
Data Format
Description
A0h MFR_VIN_MIN 00 24 R 2 Linear Minimum Input Voltage.(36Vdc)
A1h MFR_VIN_MAX 00 48 R 2 Linear Maximum Input Voltage. (72Vdc)
A2h MFR_IIN_MAX DA 00 R 2 Linear Maximum Input Current. (16A)
A3h MFR_PIN_MAX 02 3F R 2 Linear Maximum Input Power.(575W)
A4h MFR_VOUT_MIN 16 CD R 2 LinearMinimum Output VoltageRegulation Window. (11.4V)
A5h MFR_VOUT_MAX 19 33 R 2 LinearMaximum Output Voltage.Regulation Window (12.6V)
A6h MFR_IOUT_MAX E2 9A R 2 Linear Maximum Output Current. (41.625A)
A7h MFR_POUT_MAX FB E8 R 2 Linear Maximum Output Power. (500W)
A8h MFR_TAMBIENT_MAX 00 32 R 2 LinearMaximum Operating Ambient Temperature(Secondary Ambient) (50 degC)
A9h MFR_TAMBIENT_MIN 00 00 R 2 LinearMinimum Operating Ambient Temperature(Secondary Ambient) (0 degC)
AAh MFR_EFFICIENCY_LL BR 14 Linear Vin, %load, Eff., %Load, Eff., %load, eff.
ABh MFR_EFFICIENCY_HL BR 14 Linear Vin, %load, Eff., %Load, Eff., %load, eff.
B0h USER_DATA_00BR/WProcess Call
Varies
E0h FW_PRI_VERSION BR 8 ASCII
E1h FW_SEC_VERSION BR 8 ASCII
E2h CONFIG_UNLOCK_CODE BR/W 4 ASCII
E3h CONFIG_CTRL_CMD BR/W 1
F1h ISP_UNLOCK_CODE BR/W 4 00h,00h,00h,00h
F2h ISP_CTRL_CMD R/W 1ISP
Mode
F3h ISP_STATUS_BYTE R 1ISP
Mode
F5h ISP_FLASH_DATA BR/W Varies Direct
Technical Reference Note
Rev.12.24.19_#1.3DS500SDC-3 Series
Page 49
Technical Reference Note
Application NotesCurrent Sharing
The DS500SDC-3 series’ main output VO is equipped with current sharing capability. When two or more power supplies are connected and operating in parallel, the sharing accuracy between units must be within the limits specified in the table below.
The current sharing function will start when the total system load has reached 10% of the power supply rating.The power supply can support up to 4 units in parallel. Any configuration to support more than this may be discussed separately.The current share signal, Imon, is a DC signal and within the voltage range specified below. It is be capable of sinking 0.4mA and sourcing 4mA. The waveform for this signal will be provided to confirm stability during parallel mode operation.
The current share signal may be disabled by shorting this pin to ground. The main output voltage should stay within regulation limits in this condition.
Load (per power supply unit) Max
100% +/-3.33A
50% +/-3.33A
20% +/-3.33A
<20% +/-2.8A
Load (per power supply unit) Min Typ Max
100% 7.75 8 8.25
50% 3.85 4 4.15
Technical Reference Note
Rev.12.24.19_#1.3DS500SDC-3 Series
Page 50
Technical Reference Note
Redundancy / Fault Tolerance
The DS500SDC-3 series power supplies is designed for redundant mode N+1 operation. No internal failure in any power supply in this configuration should cause the bus voltage and standby bus to fall below the regulation limits specified in Table 3. All output voltages will stay within the regulation limits during swapping of the power supplies. Hot-swapping supplies will not cause any abnormal behavior of output performance to the system.
The power supply is support hot-swap operation, thus, any hot removal or hot insertion of power supplies will not cause damage to output pins due to arcing.
A single point failure will not cause failure of the system power while in redundant mode operation with more than 1 power supply installed in the system.
Vo Or-ing
+Remote Sense
ISHARE
-Remote Sense
Vo Return
LOAD
Vo Or-ing
+Remote Sense
ISHARE
-Remote Sense
Vo Return
DS500SDC-3 DS500SDC-3
Technical Reference Note
Rev.12.24.19_#1.3DS500SDC-3 Series
Page 51
Technical Reference Note
Output Ripple and Noise Measurement
The setup outlined in the diagram below has been used for output voltage ripple and noise measurements on the DS500SDC-3 Series. When measuring output ripple and noise, a scope jack in parallel with a 0.1uF ceramic chip capacitor, and a 10uF aluminum electrolytic capacitor should be used. Oscilloscope should be set to 200MHz bandwidth for this measurement. Measurement is be under all line, load and temperature conditions and is done with resistor loads rather than electronic loads.
Technical Reference Note
Rev.12.24.19_#1.3DS500SDC-3 Series
Page 52
Technical Reference Note
For more information: www.artesyn.com/powerFor support: [email protected]
Record of Revision and Changes
Issue Date Description Originators
1.0 12.11.2015 First Issue A. Li
1.1 01.26.2016 Update pull down resistor K. Wang
1.2 03.04.2019 Update I2C Bus Internal Implementation J. Ma
1.3 12.24.2019 Update PSON signal pull down resistor K. Wang